# Main topics of the Conference:

** Section 1. Experimental study of nuclear properties and fundamental interactions:**

→ neutron-rich nuclei;

→ nuclei far from the stability valley;

→ giant resonances;

→ multiphonon and multiquasiparticle states of nuclei;

→ high-spin and superdeformed states of nuclei;

→ beta decay of nuclei;

→ synthesis of superheavy elements

** Section 2. Experimental study of nuclear reactions:**

→ reactions with radioactive nuclear beams;

→ reactions with polarized particles;

→ reactions with electrons and gamma-rays;

→ reactions with heavy ions;

→ fusion and fission of nuclei;

→ multifragmentation of nuclei;

→ reactions with neutrons and ultracold neutrons;

→ reactions induced by the elementary particles

** Section 3. The theory of atomic nucleus and fundamental interactions:**

→ nuclear many-body problem;

→ microscopic description of nuclear collectivity and its interaction with single-particle motion;

→ non-linear nuclear dynamics;

→ meson and quark degrees of freedom in nuclei, mesoatoms;

→ hypernuclei and other exotic systems;

→ nucleus interaction with atomic shell electrons;

→ theories of elementary particle interaction and conservation laws;

→ application of nuclear and particle physics to the astrophysical objects;

→ clusters in nuclei and Bose-Einstein condensation

** Section 4. Nuclear reactions theory:**

→ theory of direct nuclear reactions;

→ theory of multiple scattering;

→ statistical theory of nuclear reactions;

→ theory of reactions with clusters and heavy ions;

→ theory of astrophysical nucleosynthesis;

→ relativistic theory of nuclear collisions;

→ theory of polarization phenomena in nuclear reactions;

→ theory of the proton, two-proton and cluster radioactivity and fission of nuclei;

→ theory of photonuclear reactions

**Section 5. Application of the theory of few-particle systems to nuclear and atomic physics:**

→ application of Faddeev and Faddeev-Yakubovsky equations;

→ application of hyperspherical and adiabatic hyperspherical methods;

→ application of asymptotic methods for investigation of few-particle wave functions asymptotics;

→ three-body Coulomb problem;

→ few-particle systems on the lattice;

→ few-particle systems with reduced dimensionality

** Section 6. Nuclear physics experimental technique and its applications:**

→ instruments and methods of nuclear-physics experiments;

→ nuclear experiment simulation and data analysis;

→ nuclear databases;

→ radiation detectors;

→ nuclear methods in medicine;

→ accelerator technologies;

→ radiation technology in micro- and nanoelectronics for the creation of new materials;

→ channeling of nuclei and elementary particles;

→ problems of radiation reliability;

→ nuclear and radiation safety, radioecology;

→ problems of nuclear power reactors and radioactive waste treatment;

→ fundamental problems of thermonuclear energetics;

→ experience and problems of nuclear physics education